ARC nanocomm hub Professor Wenhui Duan Director and ARC Future Fellow wenhui.duan@monash.edu
Industry transform research hub The scheme was established three years ago (2013). Overview Research Hubs will engage Australia s best researchers in issues facing the new industrial economies and training the future workforce. Objectives encourage collaborative R&D projects between universities and organisations outside the Australian higher education sector that will solve challenging industry issues through innovative research relevant to the Industrial Transformation Priorities; attract investment from the local and international business community by supporting the internationallyrecognised excellence of Australian universities and their industry partners; and leverage national and international investment in targeted industry sectors. Industry priorities in 2015 manufacturing, food and agriculture, oil and gas including petroleum, mining and mining services and medical devices and biotechnology 2
KPIs for the Hub Research findings Research training and professional education Industry Outcomes (Return on Investment, new process and patent, spin-off companies) International, national and regional links and networks End-user links 3 Performance Measure Research findings Number of Research outputs Quality of Journal publications Number of industry reports and publications Number of invited talks/papers/keynote addresses Number and nature of commentaries about the Hub s achievements Research training and professional education Number of staff, postdoctoral fellows and students in mentoring programs Number of partners and external stakeholders involved in mentoring programs Number of professional short courses/workshops attended by Hub staff and postgraduate students Number of directly relevant professional short courses/workshops attended by partners and external stakeholders Number of postgraduate students and postdoctoral fellows working on core Hub research Number of students and/or post-doctoral fellows placed in/seconded to Partner Organisations Number of postgraduate completions Industry Outcomes Anticipated/forward estimate on Return on Investment (ROI) from project outcomes ($) Additional funding secured attributable to ITRH engagement (for example, secured venture capital - $) Number of identified new processes, products or equivalent arising from Hub research Number of Intellectual Property filings (for example Patents, including provisional) Number of Intellectual Property licences executed New staff hired by Partner Organisations directly attributable to engagement with the ITRH Anticipated/forward estimate ROI of actual/realised ROI($) Uptake of project outcomes by industry (for example: number of processes, products, or equivalent) Number of spin-off/start-up companies established International, national and regional links and networks Number of international visitors and visiting fellows Number of national and international workshops held/organised by the Hub Number of visits to overseas laboratories and facilities by Hub staff/students End-user links Number of government, industry and business community briefings Number of Industry visitors to the Hub Number of talks given by Hub staff open to the public
ARC industry transformation research hub: Nanoscience-based construction materials manufacturing (nanocomm hub) Selected hub partners more than 40 Name ARRB ADBRI Masonry AGL Loy Yang Arup Pty Ltd Aurecon Australasia Pty Ltd Canstruct Pty Ltd CCANZ Cement Australia Cement, Concrete and Aggregates Australia Centre For Pavement Excellence Asia Pacific Ltd Coal Energy Australia CSR Name Energy Australia Government of Western Australia - Department of Finance Ironclad Mining Lindenbaum Pty Ltd Nu-Rock Ostwald Bros Pty Ltd Queensland Department of Housing and Public Works Roads & Maritime Services Rocket C Pty Ltd Tritech Group Limited UBIQ Australia VicRoads 4
Hub research organisations Name Monash University UNSW University of Wollongong University of Queensland University of Western Australia University of Melbourne RMIT University University of Western Sydney Swinburne University of Technology University of Technology Sydney Deakin University CSIRO Name Princeton University Northwestern University National University of Singapore Imperial College London (in discussion) Texas A&M University (in discussion) 5
Hub value - $22 million over five years (2017 2021) [CATEGORY NAME], $[VALUE]M [CATEGORY NAME], $3m [CATEGORY NAME], $[VALUE]m [CATEGORY NAME], $7m $15m cash 6
Hub governance structure Reporting Scientific Advisory Committee Director, 4x Deputy Directors, Invited Scientific Experts Hub Director Professor Wenhui Duan Research Program 1 Reporting Research Program Committee Chief Investigator(s) and Partner Investigator(s) from the industry partner Reporting Research Program 2, 3,, N Research Program Committee Chief Investigator(s) and Partner Investigator(s) from the industry partner Project 1 CIs, PIs, RFs, students Project 2 CIs, PIs, RFs, students Project 3 CIs, PIs, RFs, students Project 1 CIs, PIs, RFs, students Project 2 CIs, PIs, RFs, students Project 3 CIs, PIs, RFs, students 7
Research areas The fundamental molecular level of research, nanoscience, chemistry, and physics; The materials level where individual elements are bound together: cement and concrete, glass, metal, timber, fibre-reinforced plastic, and pavement materials; The structural level involving matters such as green buildings, bridges, roads, dams, and tunneling, sensor technology, structural health monitoring; and The system level, which involves entire building systems, such as national road networks, assets management for aging infrastructure. 8
Selected projects from the Hub 9
Potential new sensors - MoS2, WS2
Light weight high strength concrete using 3D printing technology N L 11
Nano concrete with improved durability 0.02wt% GO increases 48.9% tensile splitting strength 21.9% fracture toughness N Graphene or GO sheet L Carbonation Frozen-thaw Chloride penetration 12
Research areas The fundamental molecular level of research, nanoscience, chemistry, and physics; The materials level where individual elements are bound together: cement and concrete, glass, metal, timber, and fibre-reinforced plastic; The structural level involving matters such as green buildings, bridges, roads, dams, and tunneling, sensor technology, structural health monitoring; and The system level, which involves entire building systems, such as national road networks, assets management for aging infrastructure. 13
Cement and concrete - Geopolymer Technology at CSIRO Precast Concrete Sewer Pipes Low profile Concrete Railway sleepers Wall/Flooring product Acid resistance Rapid processing Very high strength 100 year design life High strength specification Ultra high MoE Rapid Early strength gain Manufacturability High strength/density ratio High MoE Castable/Extrudablee
Intelligent Concrete Materials Through Integration of Nanotechnology-Based Sensing Technologies Self-Sensing and Self-Powered Materials Nanotechnology-Based Devices Enhanced Concrete Pavement Design and Construction Photocatalytic Concrete Nano-modified Concrete for Self-Compacting Concrete Ultra-High-Performance Bridge Elements
Future direction of nano-based products and applications 1. Engineered concrete materials using nanotechnology that will allow maximum use of locally available materials and avoid unnecessary transport. 2. Concrete mix designs resistant to freeze thaw, corrosion, sulfate, ASR, and other environmental attacks. 3. Develop speciality products such as products with blast resistance and conductive properties as well as temperature-, moisture-, and stress-sensing abilities.
Next generation TSD N L 17
Conclusions 1. Highly promising application of nano timber/cement composites for major challenges; 2. Opportunities to join ARC nanocomm hub welcomes new partners from universities and industry. 18